JP2560491Y2 - Longitudinal current blocking circuit of coaxial transmission line - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention relates to a circuit for reducing a longitudinal current generated in a coaxial transmission line for transmitting a high-frequency current. [Prior Art] Conventionally, this type of longitudinal current blocking circuit of a coaxial transmission line has one or a plurality of toroidal cores 4 wound around a coaxial line 3 as shown in FIG. To generate a magnetic field. Thus, the transmission circuit 1 and the reception circuit 2
In order to prevent the lateral current I, which is a signal current, from being affected. That is, in the coaxial line, the transverse current I, which is a signal current, is balanced in opposite phases between the core wire and the jacket of the coaxial line, but when the transverse current I has a high frequency, it is indicated by a dotted arrow. Such a path of the longitudinal current i exists. This breaks the current balance between the input terminal pair and the transmission line, and the lateral current I
Affect. Generally, this longitudinal current i can be reduced by increasing the isolation between the transmission circuit 1 and the reception circuit 2. In the longitudinal current blocking circuit of the coaxial transmission line shown in FIG. 2, a toroidal core 4 is wound around the coaxial line 3, and the blocking impedance is reduced with respect to the longitudinal current i that disturbs the balance between the current flowing through the core of the coaxial line and the jacket. And the longitudinal current i is reduced. In other words, a magnetic flux is generated in the core by the vertical current i,
This causes a reactance with respect to the vertical current i, thereby increasing the blocking impedance, thereby reducing the flow of the vertical current. [Problems to be Solved by the Invention] However, in such a line, when the frequency of the transmission signal, that is, the transverse current, increases, the permeability of the toroidal core decreases and the reactance decreases, so that the blocking impedance decreases. Therefore, the isolation between the transmission circuit and the reception circuit is reduced, and the longitudinal current cannot be reduced. SUMMARY OF THE INVENTION An object of the present invention is to provide a vertical current blocking circuit for a coaxial transmission line capable of reducing the vertical current even if the frequency of the horizontal current is increased. [Means for Solving the Problems] The present invention relates to a toroidal core having a coaxial line inserted therein, a winding wound around the toroidal core, and capacitors connected to both ends of the winding. It is characterized by having. [Operation] By matching the resonance frequency of the winding of the toroidal core and the resonance frequency of the capacitor with the frequency of the longitudinal current flowing through the coaxial line, the blocking impedance for the longitudinal current can be increased. Embodiment Next, an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is an explanatory view of an embodiment of the present invention. In FIG. 1, a lateral current I, which is a signal current transmitted from the transmission circuit 1, is a differential component, and flows in opposite directions to the core of the coaxial line and the jacket. Therefore, the magnetic fields generated in the winding 5 of the toroidal core 4 by these cancel each other out and the winding 5
Not affected by However, with respect to the vertical current i, a magnetic field is generated in the winding 5, and a current is generated in the winding 5 by mutual induction between the magnetic field and the vertical current i. If the inductance of the winding 5 and the capacitance of the capacitor 6 are appropriately selected, parallel resonance will occur. If ask this manner to match the resonant frequency of the main frequency components f _o Toko vertical current i, even in a high frequency f _o areas permeability is reduced, it is possible to increase the blocking impedance. In the present embodiment, the toroidal core 4, the winding 5 and the capacitor 6 are each one set. And the longitudinal current i can be reduced. [Effects of the Invention] As described above, according to the present invention, there is an effect that the longitudinal current of the coaxial transmission line can be reduced even in the high frequency band of the signal current.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an explanatory view of one embodiment of the present invention. FIG. 2 is an explanatory view of a conventional example. 1 ... transmission circuit, 2 ... reception circuit, 3 ... coaxial line, 4
... toroidal core, 5 ... winding, 6 ... capacitor,
I: horizontal current (indicated by a solid line); i: vertical current (indicated by a broken line).

Claims (1)

(57) [Rules for requesting registration of utility model] A longitudinal current blocking circuit for a coaxial transmission line comprising: a toroidal core having a coaxial line inserted therein; a winding wound around the toroidal core; and capacitors connected to both ends of the winding.